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Redaktion: Lisbeth Olsson
Biofuels
erschienen Oktober 2007
368 Seiten, 76 schw.-w. Abb., Gebunden
Springer-Verlag GmbH & Co. KG | ISBN: 3540736506
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| VORWORT | öffnen |
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PrefaceIn line with the current focus on a sustainable economy, bioethanol and other biofuels have received tremendous attention, making many headlines. Being produced in steadily growing volumes has made it necessary to consider production of biofuels from renewable raw materials that are not currently used. Therefore, the production of biofuels is at the gateway of moving from traditional raw materials to others such as lignocellulosic materials. However, such a transfer requires new productio...
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| KLAPPENTEXT | öffnen |
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ADVANCES IN BIOCHEMICAL ENGINEERING/BIOTECHNOLOGY Biofuels J.M. Otero • G. Panagiotou • L. Olsson Fueling Industrial Biotechnology Growth with Bioethanol M. Galbe • G. ZacchiPretreatment of Lignocellulosic Materials for Efficient Bioethanol Production R.P. Chandra • R.Bura • W.E.Mabee • A. Berlin • X.Pan • J.N. Saddler Substrate Pretreatment: The Key to Effective Enzymatic Hydrolysis of Lignocellulosics? S.T. Merino • J. Cherry Progress and Challenges in Enzyme Development for Biomass Utiliz... [weiter lesen] |
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| INHALTSVERZEICHNIS | öffnen |
Contents
Fueling Industrial Biotechnology Growth with Bioethanol
J. M. Otero • G. Panagiotou • L. Olsson 1
Pretreatment of Lignocellulosic Materials for Efficient Bioethanol Production
M. Galbe • G. Zacchi 41
Substrate Pretreatment:
The Key to Effective Enzymatic Hydrolysis of Lignocellulosics?
R. P. Chandra • R. Bura • W. E. Mabee • A. Berlin • X. Pan •...
Progress and Challenges in Enzyme Development for Biomass Utilization
S. T. Merino • J. Cherry 95
Thermostable Enzymes in Lignocellulose Hydrolysis
L. Viikari • M. Alapuranen • T. Puranen
J. Vehmaanperä • M. Siika-aho 121
Metabolic Engineering for Pentose Utilization in Saccharomyces cerevisiae
B. Hahn-Hägerdal • K. Karhumaa
M. Jeppsson • M. F. Gorwa-Grauslund 147
Development of Efficient Xylose Fermentation in Saccharomyces cerevisiae. Xylose Isom...
A. J. A. van Maris • A. A. Winkler • M. Kuyper • W. T. A. M. de Laat
J. P. van Dijken • J. T. Pronk 179
Consolidated Bioprocessing for Bioethanol Production Using Saccharomyces cerevisiae
W. H. van Zyl • L. R. Lynd • R. den Haan • J. E. McBride 205
Development of Ethanologenic Bacteria
L. R. Jarboe • T. B. Grabar • L. P. Yomano
K. T. Shanmugan • L. O. Ingram 237
Zymomonas mobilis for Fuel Ethanol and Higher Value Products
P. L. Rogers • Y. J. Jeon • K. J. Lee • H. G. Lawford 263
Coproduction of Bioethanol with Other Biofuels
B. K. Ahring • P. Westermann 289
Process Engineering Economics of Bioethanol Production
M. Galbe • P. Sassner • A. Wingren • G. Zacchi 303
Policy Options to Support Biofuel Production
W. E. Mabee 329
Author Index Volumes 101-108359
Subject Index 365
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| REGISTER | öffnen |
Subject Index
AAcetaldehyde 12
Acetaldehyde dehydrogenases 26, 31
Acetate 253
Acetyl-CoA 24
Actinobacillus succinogenes 25
Alanine 255
Alcohol dehydrogenase 2 (Adh 2 p) 26
Ammonia fibre explosion (AFEX) 47, 50
Ammonia recycle percolation (ARP) method 50
α -Amylases 304
Anaerobiospirillum succiniciproducens 25
Arabinose 147, 160
Arabinose utilization, pathways 160
- S. cerevisiae 161
BBaker's yeast, CBP host 208
Bio/catalytic refineries 299
Biocatalysts, KO 11/LY 01, ethanologenic 240
- strain LY 168, ethanologenic 243
Bioethanol, demand 14
- production, one-step 205
Bioethanol-related policy 350
Biofuel production 331
Biofuels 1, 329
Biomass 67
- , steam pretreatment 71
Bioprocessing, consolidated 205
Biorefineries 1, 8, 289
Biotransformations, enzyme-based 281
Brazil 12, 333
Butanediol 25
- γ-Butyrolactone 25
CCatalytic efficiency/productivity 106
CBP yeast 228
Cellobiohydrolase 121
Cellobiose 46
Cellulases 67, 121
- , fungal 251
- , hydrolysis 84
- , S. cerevisiae 211
- , r reesei 106
- , thermostable 123
Cellulolytic yeast 205
Cellulose 67
- , crystallinity 87
- , enzymatic hydrolysis 122
- , ethanol 10
Cofactor dependence 164
Corn 14
Corn stover 52, 200
- , hydrolysate, fed-batch fermentation 200
Corynebacterium glutamicum, lysine 31
DDiesters 10
Differential gel-electropheresis (DiGE) 24
Direct funding 329
EEndoglucanase 121
Energy demand 318
Entner-Doudoroff
pathway (EMP) pathway 28
Enzymatic hydrolysis 41, 45
Enzymes, cost 101
- , discovery 106
- , dosage 100
- , mixtures, thermophilic/thermostable 131, 133
- , production, economic 115
- , recovery 117
- , thermophilic/thermostable 121, 129
Escherichia coli 237
- , ethanologenic 240
- , non-recombinant ethanologenic 246
ETBE 10, 12
Ethanol 147, 237
- , resistance 248
Ethanol production 248, 263
- , cellulose 10
- , lignocellulosic materials 310
Ethanolic fermentation, pentose-utilizing S. cerevisiae 162
Ethanologenicity,
- metabolic/transcriptomic changes 247 European Union 13, 337
Evolutionary engineering, xylose 194
Excise tax exemptions 329, 347
FFermentation 296
- , trials, xylose
Fine chemicals 282
Fir 59
Flowsheeting 309
Fluxome 30
Fluxomics 5, 29
Formaldehyde 12
Formic acid 46
Forward metabolic engineering 18, 22
Fuel cells 289
Fumarate reductase subunit A (frd-A) 25
Funding programs, USA 343
Fungal preparations, elevated temperature 132
Fusarium oxysporum 28
GGalactose signaling pathway 26
Genomics 18, 19
Gluconate 281
Glucose 25
- , yield 61
β -Glucosidase 108, 121
Glutamate dehydrogenase 30
Glycerol-3-phosphatase 26
Glycolytic flux 169
Glycose fermentation 263
Glycosyl hydrolase family 61 109
GRE 3 deletion 165
Growth media, cost effective 248
HHaemophilus influenzae 19
Hemicellulases, S. cerevisiae 218
- synergistic 111
Hemicellulose 15, 67, 80
- content, hydrolysis 83
- , - pretreatment 81
- hydrolysate 237, 250
Hydrogen 289
- , production 291
Hydrolysates, fermentation 172
Hydrolysis 67, 121, 296
Hydrothermolysis (liquid hot-water treatment) 505-Hydroxymethylfurfural (HMF) 46
IIndustrial biotechnology 2
Industrial systems biology 5, 17
- bioethanol 32
- X-omics 15
Inhibitor tolerance 171
Isotope-coded affinity tag technology (ICAT) 24
K 2-Keto-3-deoxy-6-phosphogluconate adolase (Eda) 24
Kyoto Protocol 13
LLactic acid 237, 252
Levulinic acid 46
Lignin 15, 67, 75
- enzymatic hydrolysis 78
Lignocellulose 41, 121, 147
- vs. starch 322
Lignocellulosic biomass 97
Lignocellulosic hydrolysates 180
- inhibitors 274
Lignocellulosics 263
Lignol organosolv process 60
LY 01, ethanol resistance 248
LY 168, ethanol production 244
Lysine, Corynebacterium glutamicum 31
MMannheimia succiniciproducens 25
Market drivers 3, 8
Maxifuel 292
Metabolic engineering 1, 263
Metabolic flux 29
Metabolomics 27
Metagenomics 18
Methane 289
- production 291
MTBE 12
Multidimensional protein identification technology (MuDPiT) 24
- NADPH 24
OOrganic acids, metabolic engineering 279
Osmolyte stress 249
PPenicillin 6
Pentose-fermenting strains 170
Pentose pathway enzymes 164
Pentose phosphate pathway 28, 166
Petroleum, economics 8
- , prices 9
Phage shock protein A (PspA) 24
Pharmaceutical intermediates 282
PHB 24
Phenotypic phase plane (PhPP) analysis 20
Phosphoketolase pathway (PKP) 30
Pichia stipitis 5, 21
- xylitol dehydrogenase (XDH) 30
Pine 58
Pirtus radiata, softwood 58
Piromyces sp.,
xylose isomerase 31
Policy 329
- bioethanol 350
Poly-amides 25
PPP, oxidative 167
Pretreatment 295
- assessment 44
- methods 47, 69
- selection 102
- two-stage 60
Process economics 311
Process integration, enzyme requirements 104
Production cost 318
1, 3-Propanediol (PDO), from corn 10
Proteomics 5, 23
Pyruvate 253
RRedox enzymes 168
Redox metabolism, engineering 167
Redox restrictions 182
Refineries, bio/catalytic 299
Reforming 289
Renewable fuel mandates 329
Reverse metabolic engineering 18, 22
SSaccharomyces cerevisiae 179, 205
- , CBP host 208
- , lignocellulosic hydrolysates 180
Separation 296
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